Xiaohua Xia | Mechanical Engineering | Best Researcher Award

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Assoc Prof Dr. Xiaohua Xia | Mechanical Engineering | Best Researcher Award

Leadership and Research Team Involvement

  • Dr. Xia serves as the Director of the Institute of Quality Control and leads the Engineering Equipment Intelligent Vision Scientific Research Team at Chang’an University. This leadership role underscores his active contribution to advancing research in intelligent vision technologies and engineering equipment quality control, a highly relevant area with potential societal impact.
Assoc Prof Dr. Xiaohua Xia , Chang’an University, China

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🌱EARLY ACADEMIC PURSUITS

  • Xiaohua Xia began his academic journey by earning a Bachelor of Science (BS) degree from China University of Petroleum in 2009. His commitment to advancing his knowledge led him to pursue a Ph.D. from Xi’an Jiaotong University, graduating in 2015 . These foundational years were crucial in building a solid knowledge base in engineering and set the stage for his future contributions in quality control and intelligent vision in engineering equipment.

💼 PROFESSIONAL ENDEAVORS

  • Xiaohua Xia currently holds the position of Associate Professor and Doctoral Supervisor at Chang’an University . In his role, he leads advanced research and supports the development of emerging scholars. As the Director of the Institute of Quality Control and the Leader of the Engineering Equipment Intelligent Vision Scientific Research Team at Chang’an University , Xia’s influence extends across multiple fields. His professional journey underscores a dedication to quality assurance and the intelligent automation of engineering practices.

🔬CONTRIBUTIONS AND RESEARCH FOCUS 

  • Xiaohua Xia’s research revolves around engineering equipment, quality control, and intelligent vision systems . By merging machine vision and quality control methodologies, his work aims to enhance the accuracy and reliability of engineering equipment diagnostics and assessments. His pioneering research in intelligent vision for engineering equipment has the potential to significantly reduce operational errors and enhance the efficiency of maintenance protocols.

 📚ACADEMIC CITES 

  • Xiaohua Xia’s research has garnered substantial academic citations , indicating the wide-reaching impact and value of his work. His publications are referenced by scholars and professionals alike, contributing to a growing body of knowledge in quality control and intelligent systems. This scholarly recognition highlights his expertise and the practical application of his research in both academic and industrial contexts.

🌍IMPACT AND INFLUENCE

  • Xia’s work has had a notable influence on the engineering and academic communities . His contributions have driven improvements in quality control and intelligent diagnostics, fostering a greater understanding of how machine vision can impact traditional engineering practices. His role as a doctoral supervisor further amplifies his influence by nurturing the next generation of engineers and researchers.

🌟LEGACY AND FUTURE AND CONTRIBUTIONS

  • As Xiaohua Xia continues to advance in his career, his contributions to intelligent vision systems and quality control are poised to leave a lasting legacy in engineering. His future endeavors are likely to expand upon his existing work, potentially venturing into new fields within engineering and automation . Xia’s impact on academia and industry ensures that his work will benefit both current and future developments in engineering technology.

📄Publications

    • Functionalized molybdenum tailings improve flame retardancy and mechanical properties of DOPO@chitosan-vanillin Schiff-containing rigid polyurethane foam
      Authors : Feng, S.; Wang, Y.; Zhou, Y.; … Su, O.; Xia, X.
      Journal : Materials Today Communications , 2024, Volume 41, Article 110825
    • Image correction for perspective distortion of cylindrical surfaces at arbitrary poses |
      Authors : Duan, Z.; Xia, X.; He, P.; Hu, P.
      Journal : Guangxue Jingmi Gongcheng/Optics and Precision Engineering , 2024, Volume 32, Issue 16, Pages 2577–2589
    • Fingerprint-inspired biomimetic tactile sensors for the surface texture recognition
      Authors : Qin, L.; Hao, L.; Huang, X.; … Xia, X.; Dong, G.
      Journal : Sensors and Actuators A: Physical , 2024 , Volume 371, Article 115275
    • Underwater image enhancement synthesizing multi- scale information and attention mechanisms | Underwater image enhancement synthesizing multi-scale information and attention mechanisms
      Authors : Xia, X.; Zhong, Y.; Hu, P.; … Geng, J.; Zhang, L.
      Journal : Guangxue Jingmi Gongcheng/Optics and Precision Engineering , 2024, Volume 32, Issue 10, Pages 1582–1594
    • Influence of Imaging Parameters on Shape from Focus of Large- Depth Objects | Influence of Imaging Parameters on Shape from Focus of Large-Depth Objects
      Authors : Xia, X.; Cao, Y.; Xiang, H.; Yuan, S.; Ge, Z.
      Journal : Guangxue Xuebao/Acta Optica Sinica , 2024, Volume 44, Issue 8, Article 0815001

Zhiying Ren | Material Engineering | Best Researcher Award

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Prof. Zhiying Ren | Material Engineering | Best Researcher Award

Industry Collaboration :
  • Prof. Ren has collaborated with key enterprises, including the China Nuclear Power Research and Design Institute, to develop cutting-edge vibration and noise reduction solutions. These industry partnerships underscore his ability to bridge academic research with industrial applications.
Prof. Zhiying Ren, FuZhou University, China

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🎓Early Academic Pursuits

Zhiying Ren’s early academic journey was marked by a deep commitment to mechanical engineering and material science. Her education and training laid a strong foundation for her later contributions in vibration reduction and metal rubber technology. Selected as a high-level talent in Fujian Province (Class B), her early career was characterized by a rapid ascent into specialized research areas, positioning her as an expert in mechanical and aerospace applications.

👩‍🔬Professional Endeavors

  • Zhiying Ren has held prestigious positions, including being a core member of the Joint Fund Innovation Team of the Ministry of Education and serving as a “Tongjiang Scholar” in Quanzhou, Fujian Province. She is also recognized as a special commissioner of Science and Technology in Fujian Province, reflecting her influence and leadership in both academic and industrial sectors.
  • Ren has managed over 30 major projects over the past five years, including three National Natural Science Foundation projects, one of which is a key national defense initiative. Her collaborations span national and provincial institutions, emphasizing her role in nuclear power, aerospace, and vibration noise reduction technologies.

🔬 CONTRIBUTIONS AND RESEARCH FOCUS

  • Ren’s research focuses on advanced vibration and noise reduction technologies for aerospace, marine, and nuclear thermal power equipment. A significant area of her expertise is the development of special vibration damping materials, especially those involving metal rubber technology. This work has practical implications in both military and civil engineering sectors, particularly in noise reduction and oil-water separation technology, where metal rubber serves as a breakthrough material.
  • Her dedication to research aligns with national strategic needs, with breakthroughs in vibration absorption and filtration technology. These advancements have translated into tangible solutions across several engineering fields, including defense and civilian applications.

 

🌍Impact and Influence

  • Zhiying Ren’s impact on her field is profound, with 158 publications in SCI-indexed journals, 92 patents, and numerous collaborations with leading institutions. Her editorial roles in journals such as Symmetry, Vibration, Testing and Diagnosis, and Tribology Journal further cement her influence in the academic community.
  • Through school-enterprise and university-enterprise collaborations, Ren has facilitated the development of crucial technologies, including the design of metal rubber hangers for the China Nuclear Power Research and Design Institute and vibration damping materials for elevator traction machines in partnership with the Fujian Special Equipment Inspection and Research Institute.

🏅ACADEMIC CITES AND RECOGNITION

Ren’s work is widely cited in the academic community, contributing to the development of vibration reduction techniques and materials for industrial applications. Her citation index includes influential works, such as the one referenced with DOI: 10.1002/adfm.202212262, which highlights her contributions to the field of metal rubber technology and its applications in vibration and noise reduction.

🌍 LEGACY AND FUTURE CONTRIBUTIONS

  • Ren’s legacy in the field of mechanical engineering is marked by her focus on innovation and practical applications of metal rubber technology. As the director of the Tribology Branch of the Chinese Mechanical Engineering Society and deputy director of several national committees, she has played a key role in shaping research directions in her field. She is also an advocate for promoting women in science, serving as an executive director of the Fujian Female Science and Technology Workers Association.
  • Looking forward, Ren’s ongoing research and collaborations are expected to continue yielding groundbreaking innovations, particularly in vibration reduction technologies and their applications in national defense, nuclear power, and civil engineering.

📰PUBLICATIONS

  • Copper-Free Resin-Based Braking Materials: A New Approach for Substituting Copper with Fly-Ash Cenospheres in Composites
    Authors: Zheng, K., Lin, Y., You, S., Ren, Z., Huang, J.
    Journal: Chinese Journal of Mechanical Engineering (English Edition), 2024, 37(1), 28
  • Design and Mechanical Properties of Metal Rubber Secondary Multidirectional Vibration Isolation System under Random Vibration
    Authors: Shi, X., Zhou, H., Zhou, C., Guo, Z., Ren, Z.
    Journal: Nonlinear Dynamics, 2024, 112(17), pp. 14805–14828
  •  Multi-Scale Pore Model Construction and Damage Behavior Analysis of SiCf/SiC Composite Tubes
    Authors: Yan, W., Ren, Z., Fan, X., Shen, L., Xu, J.
    Journal: Materials Characterization, 2024, 214, 114083
  • Entangled Metallic Porous Material–Silicone Rubber Interpenetrating Phase Composites with Simultaneous High Specific Stiffness and Energy Consumption
    Authors: Zheng, X., Xiao, Z., Ren, Z., Yao, L., Bai, H.
    Journal: Composite Structures, 2024, 341, 118213
  • Ultrasonic Rolling Strengthening of TC11 Titanium Alloy Surface: Corrosion and Wear Properties under Extreme Conditions
    Authors: Zheng, K., Zhao, X., Pan, L., Ren, Z.
    Journal: Wear, 2024, 550-551, 205415